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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
X-linked agammaglobulinemia (XLA) is an
immunodeficiency
caused by mutations in the gene coding for Bruton agammaglobulinemia tyrosine kinase (BTK). A database (BTKbase) of BTK mutations lists 544 mutation entries from 471 unrelated families showing 341 unique molecular events. In addition to mutations, a number of variants or polymorphisms have been found. Mutations in all the five domains of BTK cause the disease, the single most common event being missense mutations. Most mutations lead to truncation of the enzyme. The mutations appear almost uniformly throughout the molecule. About one-third of point mutations affect CpG sites, which usually code for arginine residues. The putative structural implications of all the missense mutations are provided in the database. BTKbase is available at http://www.
uta
.fi/imt/bioinfo.
...
PMID:Mutations of the human BTK gene coding for bruton tyrosine kinase in X-linked agammaglobulinemia. 1022 Jan 40
The Internet contains scientific information in increasing amounts. It is possible to obtain the latest information, and Web services can easily be maintained and updated. We have set up three Internet services on immunodeficiencies.
Immunodeficiency
-related mutation infor mation is available in
immunodeficiency
mutation databases (IDbases). Currently 14 registries are distributed, including information about Bloom syndrome (BLMbase), X-linked agammaglobulinemia (BTKbase), X-linked and autosomal recessive chronic granulomatous diseases (CYBBbase for X-linked CGD, CYBAbase for p22(phox) deficiency, NCF1base for p47(phox) deficiency, NCF2base for p67(phox) deficiency), CD3gamma and CD3epsilon deficiencies (CD3Gbase, CD3Ebase), X-linked hyper-IgM syndrome (CD40Lbase), T-B+ severe combined immunodeficiency (JAK3base), V(D)J recombination defects (RAG1base, RAG2base), X-linked lymphoproliferative syndrome (SH2D1Abase), and ZAP-70 deficiency (ZAP70base). Information on laboratories analysing the genetic defects is collected to IDdiagnostics registry. Due to the rareness of immunodeficiencies there are very few laboratories performing genetic diagnostics. Such laboratories are listed in IDdiagnostics and physicians can use the registry to find a suitable laboratory for their diagnostic needs.
Immunodeficiency
Resource (IDR) is a comprehensive integrated knowledge base for all the information on immunode ficiencies, including clinical, biochemical, genetic, structural and computational data and analyses. All three services are available at http: //www.
uta
.fi/imt/bioinfo/.
...
PMID:Novel immunodeficiency data servers. 1121 2
Knowledge of the molecular defects responsible for some primary
immunodeficiency
diseases (PIDs) offers undoubted advantages in establishing a reliable diagnosis. Such knowledge would allow us not only to establish a prognosis but also to instigate the most appropriate therapy. After molecular diagnosis, some patients could benefit from gene therapy. However, apart from the diagnosis of the disease, molecular biological techniques also enable more reliable identification of carriers and, when suggested by the family history and when the familial defect is already known, prenatal diagnosis will also be possible, thus establishing the earliest possible treatment. Using the single-stranded conformational polymorphism technique followed by direct sequencing, we found 22 different mutations in 22 patients from unrelated families and with a phenotype compatible with x-linked agammaglobulinemia. Fourteen of these are new, previously undescribed mutations and the remaining eight are already included in the data base (http://www.
uta
.fi/imt/bioinfo/Btkbase). Analysis of the female carrier was performed in all the mothers and the mutation was de novo in only one patient. Study of the BtK gene enabled differential diagnosis with common variable
immunodeficiency
disease in some patients who showed absent or very low lymphocyte B counts as well as forms of autosomal recessive agammaglobulinemia. Using the same techniques, we were able to identify mutations in the CD40 ligand gene in three families in which one of the members had clinical and biological phenotype compatible with X-linked hyper-IgM. Molecular diagnosis was very useful in identifying carriers in these families as well as in making the differential diagnosis among patients with common variable
immunodeficiency
disease. Purely on this were we able to provide appropriate genetic counseling.
...
PMID:[Molecular diagnosis of primary immunodeficiencies]. 1143 83
X-linked agammaglobulinemia (XLA) is a hereditary
immunodeficiency
caused by mutations in the gene encoding Bruton tyrosine kinase (BTK). XLA patients have a decreased number of mature B cells and a lack of all immunoglobulin isotypes, resulting in susceptibility to severe bacterial infections. XLA-causing mutations are collected in a mutation database (BTKbase), which is available at http://bioinf.
uta
.fi/BTKbase. For each patient the following information is given (when available): the identification of the entry, a plain English description of the mutation followed by a reference, formal characterization of the mutation, and the various parameters from the patient. BTKbase is implemented with the MUTbase program suite, which provides an easy, interactive, and quality controlled submission of information to mutation databases. BTKbase version 8 lists mutation entries of 1,111 patients from 973 unrelated families showing 602 unique molecular events. The localization of the mutations on the gene and protein for BTK can be analyzed by clicking sequences on the web pages. The distribution of the mutations in the five structural domains is approximately proportional to the length of the domains, except for the Tec homology (TH) domain. The most frequently affected sites are CpG dinucleotides. The majority of the missense mutations are structural-disturbing Bruton tyrosine kinase (Btk) folding or decreasing stability. Many of the mutations affect functionally significant, conserved residues. The structural consequences of the mutations in all the domains have been studied based on crystallographic and nuclear magnetic resonance (NMR) structures as well as computer-aided molecular modeling.
...
PMID:BTKbase: the mutation database for X-linked agammaglobulinemia. 1696 61
Primary immunodeficiencies (IDs) are a heterogenic group of inherited disorders of the immune system.
Immunodeficiency
patients have increased susceptibility to recurrent and persistent, even life-threatening infections. Mutations in a large number of genes can cause defects in different cellular functions and lead to impaired immune response. To date, approximately 150 IDs and more than 100 affected genes have been identified. ID-related genes are distributed throughout the genome, and diseases can be inherited in an X-linked, an autosomal recessive, or an autosomal dominant way. We have collected ID mutation data into locus-specific patient-related mutation databases, IDbases (http://bioinf.
uta
.fi/IDbases). Mutations are described at DNA, mRNA, and protein levels with links to reference sequences and reference articles. The mutation data has been collated into entries along with some clinical information. IDbases offer an easy way, e.g., to find recently identified mutations, to reveal genotype-phenotype correlations, and to discover a specific mutation or to examine the most common mutations in a single
immunodeficiency
related gene. At the moment we have databases for 107 ID genes with 4,140 public patient entries. An exhaustive statistical analysis of mutation data from the IDbases was made. Missense and nonsense mutations are the most common mutation types, and the most common single substitution is a nonsense mutation from tryptophan to a stop codon. Arginine is the most mutated as well as the most abundant mutant amino acid.
...
PMID:Immunodeficiency mutation databases (IDbases). 1700 34
